全文下载:2013040331
曹连振1a,1b,2, 刘霞1b,2, 逯怀新1b, 赵加强1b, 蒋红2, 宋航2
(1 .潍坊学院 a 山东省多光子纠缠与操纵重点实验室;b物理与光电工程学院, 山东 潍坊 261061;
2.中国科学院 长春光学精密机械与物理研究所, 吉林 长春 130033)
摘要: 采用物理热蒸发二氧化硅纳米颗粒和三氯化铁催化剂混合粉末的方法,制备了两种新形貌二氧化硅材料,并用扫描电子显微镜、X射线电子能谱和光致发光等手段分别研究了合成材料的结构、组分和光学特质。研究发现,合成的材料的形貌分别为“蘑菇状”和“花朵状”,材料垂直于衬底生长,且发射中心波长为510 nm稳定的蓝绿光。根据得到的实验结果,分析认为材料的生长机制符合催化剂决定的顶部生长模式,催化剂的不同形貌决定形成了两种不同形貌材料,并通过研究材料生长初期的照片,证明了上述推测的正确性。本研究为合成其它新形貌纳米材料提供了一种新方法。
关键词: 物理热蒸发; 二氧化硅; 顶部生长模式; 光致发光性质
中图分类号: O 522+.1; O 462.3 文献标志码: A
Synthesis and Photoluminescence of Two New Morphology Silica Materials
CAO Lian-zhen1a,1b,2, LIU Xia1b,2, LU Huai-xin1b, ZHAO Jia-qiang1b, JIANG Hong2, SONG Hang2
(1.a.Shandong Provincial Key Laboratory of Multi-photon Entanglement and Manipulation; b.Department of Physics and Electronic Science,Weifang University, Weifang 261061, China;
2.ChangchunInstitue Optics, Fine Mechanics and Physics, ChineseAcademyofScience,Changchun13033,China)
Abstract: Two new morphology silica materials were successfully synthesized by simple physical thermal evaporation using the mixture of silica nanoparticles and iron trichloride. The scanning electron microscopy, energy-dispersive X-ray spectroscopy, and photoluminescence spectroscopy were used to characterize the structure, components, and optical characteristic of the materials. The results show that the synthesized materials have two kinds of morphology, which can be named as “mushrooms” and “flower shape”, respectively. The materials have a growth direction perpendicular to the Si substrate and can emit stable broad blue-green photoluminescence band with defined maximum wavelength about 510 nm. According to the experimental results, we think that the growth mechanism of the materials follows the top growth mode and the catalyst morphology is the key factor for synthesizing different morphology of silica materials. The synthetic approach presented here opens a new route to fabricate other different shapes of nano-structures.
Key words:physical thermal evaporation; silica; top growth model; photoluminescence
收稿日期:2012-11-14
基金项目:国家自然科学基金资助项目(10804068;11174224).
作者简介: 曹连振(1980—),男,讲师.
